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The twin paradox is a thought experiment commonly used to illustrate the effects of time dilation in special relativity. It involves a scenario where one twin stays on Earth while the other travels through space at high speeds and then returns. The traveling twin experiences time dilation, resulting in them aging less than the stationary twin.

The resolution of the twin paradox lies in the fact that the traveling twin undergoes acceleration during the turnaround point, which breaks the symmetry between the two twins. Special relativity alone cannot account for this acceleration, as it is formulated for inertial frames of reference, where objects move at constant velocities without any forces acting upon them.

When the traveling twin accelerates to change direction, they enter a non-inertial frame of reference, where the rules of special relativity do not directly apply. This acceleration introduces an asymmetry in the scenario, and when the traveling twin returns to the stationary twin, they have experienced a different path through spacetime due to their acceleration.

To fully understand and resolve the twin paradox, one needs to incorporate the principles of general relativity, which includes the effects of acceleration and gravity. General relativity provides a more comprehensive framework to describe the behavior of objects in both inertial and non-inertial frames of reference, accounting for the asymmetry and resolving the paradox.

In summary, special relativity alone is insufficient to resolve the twin paradox because it does not consider acceleration. Incorporating general relativity is necessary to account for the effects of acceleration and resolve the paradox.

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